How Do You Calculate Distance and Direction Using the Law of Cosines?

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The discussion focuses on calculating the distance and direction between two geological field teams using the law of cosines. The first team is located 39 km at 11° north of west, while the second team is 30 km at 38° east of north. The user successfully calculated the distance between the two teams but struggled with determining the direction relative to due east. Guidance is provided to use the sine rule for finding the angle needed for the direction calculation. The conversation emphasizes the application of trigonometric principles in solving the problem.
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Homework Statement



Two geological field teams are working in a remote area. A global positioning system (GPS) tracker at their base camp shows the location of the first team as 39 km away, 11° north of west, and the second team as 30 km away, 38° east of north. When the first team uses its GPS to check the position of the second team, what does the GPS give for the following?
(a) the second team's distance from the first team
(b) the second team's direction from the first team, measured relative to due east

Homework Equations



The law of cosines

c^2=a^2 + b^2 - 2ab Cos


The Attempt at a Solution



Alright I got part a) using the law of cosines and solving for c... But for the life of me I can't figure out b)! I know it's something simple I'm overlooking, considering I have all of the sides... And one angle... Any help would be greatly appreciated...
 
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finfanrb23-rw said:

The Attempt at a Solution



Alright I got part a) using the law of cosines and solving for c... But for the life of me I can't figure out b)! I know it's something simple I'm overlooking, considering I have all of the sides... And one angle... Any help would be greatly appreciated...

You'll need to use the sine rule

\frac{A}{sinA}=\frac{B}{sinB}=\frac{C}{sinC}
 

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